Joshua Powell
Churchill Fellow (2017)
Island Conservation For An Island Nation
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Contents
Executive Summary ................................................................................................................................ 3
Introduction ............................................................................................................................................ 4
The UK, an Island Nation ....................................................................................................................... 5
1. An Introduction to Locations ............................................................................................................ 6
New Zealand ....................................................................................................................................... 6
Australia .............................................................................................................................................. 7
Fiji ........................................................................................................................................................ 7
2. Models of Island Conservation from Australasia ............................................................................. 8
Restored Offshore Islands - The Tiritiri Matangi Model .................................................................... 8
Restored Habitat Islands - The Zealandia Model ............................................................................... 9
Large Islands with Native Mammal Populations -The Tasmania Model .......................................... 10
Island and Marine Conservation - The Seascape Model .................................................................. 11
Restricted Access Offshore Islands -The Codfish/Whenua Hou Model ........................................... 11
3. Governance....................................................................................................................................... 14
DOC ................................................................................................................................................... 14
Community Conservation ................................................................................................................. 15
International Collaboration .............................................................................................................. 17
4. Invasive Species ................................................................................................................................ 18
Biosecurity ......................................................................................................................................... 18
Invasive Species Response ............................................................................................................... 19
Celebrating Success and Public Acceptance .................................................................................... 23
5. Management of High Priority Species ............................................................................................ 24
Captive Breeding ............................................................................................................................... 24
Translocation ..................................................................................................................................... 25
Case Studies ..................................................................................................................................... 26
6. Innovative Approaches, Technologies and Strategies ................................................................... 30
Conclusions and Recommendations .................................................................................................... 34
Acknowledgements .............................................................................................................................. 38
Glossary ................................................................................................................................................ 39
References ............................................................................................................................................ 40
About the Author/WCMT .................................................................................................................... 44
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Executive Summary
With funding from the Winston Churchill Memorial Trust, Island Conservation for
an Island Nation evaluated the state of island conservation in New Zealand,
Australia and Fiji and what lessons from their experiences could be used for the
UK’s benefit.
This report is the product of a Churchill Fellowship, from April – June 2017. It is based on
interviews with practitioners and policy-makers across New Zealand, Australia and Fiji, as
well as their UK counterparts, and is supplemented with information supplied by their
respective organisations.
For analysis, information collected is grouped by key subject areas: Models of Island
Conservation, Governance, Invasive Species, Management of High Priority Species, and
Innovative Approaches. Within each subject area, key actions, processes and projects are
detailed, with their UK equivalents documented where appropriate. These are used to inform
a number of recommendations for UK island conservation.
The key findings are:
Practitioners should take into account geographical island type (offshore/habitat
island; uninhabited/inhabited; oceanic/continental), each of which should have
considerable bearing, when designing conservation strategy.
When designing island conservation strategy the selection of suitable comparative
reference examples should guide approach and may save time and resources, as
well as increasing the chance of success of any intervention or policy.
This UK’s ambition and performance on island conservation lags well behind its
Australasian counterparts. This report gives a number of recommendations, based
on best practice in the study countries, which aim to improve public engagement in,
and the effectiveness of, island conservation in the UK and British Overseas
Territories. Recommendations are grouped into 6 categories:
- Increasing Public Engagement with Island Conservation
- Monitoring and Incorporating Innovative Techniques
- Updating and Improving Response to Invasive Species
- Protecting High Priority Species and Environments
- Formalising Channels for Sharing Best Practice and Skills
- Thinking Big: The Benefits of Ambition
Formalising communication channels between UK practitioners and their overseas
counterparts is strongly recommended to allow for the continuous and timely sharing
of best practice and skills, as necessary.
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“Islands may seem remote and insignificant, but they are home to some of the most precious wildlife on earth“
– Sir David Attenborough
Introduction
Islands are remarkable biological environments which account for a disproportionate share
of global biodiversity and are home to some of the world’s most threatened species. The
range of islands which the UK is responsible for is truly staggering, from the metropolitan
British Isles to the remote British Overseas Territories (BOTs), which incorporate everything
from uninhabited Antarctic islands with vast penguin colonies, to tropical Caribbean islands
with some of the world’s highest levels of biodiversity by area1.
This remarkable diversity is under threat however, as we continue to lose species. The most
recent British extinction, of the St Helena olive tree (Nesiota elliptica), was as recent as
2003. Islands play by different ecological rules to the mainland and that means their
conservation must as well; as Mel Galbraith, a Senior Lecturer in Ecology at Unitec in New
Zealand, remarked, “Island Conservation and Continental Conservation require entirely
different ways of thinking”. As an island nation, when we look for conservation leaders to
learn from, we therefore have as much to learn from New Zealand as we do from our
continental European neighbours.
Island Conservation For An Island Nation looks at three countries in the Australasia region
which are also at important junctures in their island conservation story: New Zealand, Fiji
and Australia. In very different ways, each has shown leadership in island conservation and
their experiences hold lessons which the UK can hope to draw upon. Recommendations
based on these findings, intended to stimulate discussion around island conservation in the
UK, are included at the end of the report, under Conclusions and Recommendations.
Joshua Powell
Churchill Fellow (2017)
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UK & Channel Islands
The UK, An Island Nation
An island nation in every sense, the UK and its jurisdiction is made up principally of the
largely continental British Isles and their immediate offshore islands, such as the Channel
Islands, and the, largely oceanic British Overseas Territories (BOT, also Overseas
Territories). The British Isles alone include several thousand islands, of which just the largest
are permanently inhabited, while the islands of the BOTs range from sub-Antarctic islands in
the South Atlantic, to tropical islands in the Caribbean. 94% of known British endemic
species are found on the BOTs2, with the island of St Helena alone containing over 500
endemic species.
The UK and the British Overseas Territories (Reproduced based on Misachi, 2017A)
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“Offshore islands have been New Zealand’s saving
grace for conservation”
– Paul Kavanagh, Kiwi Birdlife Park
1. Introduction to Locations
i) New Zealand
The world leaders in island conservation in many regards, New Zealand has a remarkable
biota spread over an island landscape of staggering variety. The islands of New Zealand
range from the large North Island which covers sub-tropical and temperate biomes, to the
tiny subantarctic Snares Group. Widely considered to host the most diverse collection of
seabirds in the world3, New Zealand’s subantarctic islands are protected as a World
Heritage Area, while many of New Zealand’s other islands are nature reserves, most famous
of which are the trio of Little Barrier Island/Hauturu, Tiritiri Matangi Island and Codfish
Island/Whenua Hou. 85% of New Zealand’s third largest island (1,746km² island), Stewart
Island/Rakiura, is covered by Rakiura National Park. Offshore islands, several of which have
sheltered the last remaining individuals of some of New Zealand’s most threatened endemic
species, have formed the cornerstone of New Zealand conservation policy.
Conservation of biodiversity on New Zealand islands is the cabinet responsibility of the
Minister for Conservation, who is supported by the Department for Conservation (DOC),
made up of regional and local offices throughout the country and a national leadership team,
led by a Director-General, based in Wellington. In 2016, Prime Minister John Key declared a
target to remove all non-native predator (pest) species, subsequently confirmed as possums,
rats and mustelids, from New Zealand by 2050.
The world’s only alpine parrot, the kea (Nestor notabilis) is endemic to New Zealand’s South Island
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Mangrove coastline, Viti Levu island, Fiji
ii) Australia
Australia, the smallest continental land mass and historically compared to an island, has a
diverse range of true offshore islands. To its south lies the island of Tasmania, an Australian
state in its own right, while the smaller offshore islands of Norfolk Island, the Torres Strait
Islands and the Cocos (Keeling) Islands stretch from the Pacific to the Indian Oceans. Some
of the most biologically significant are protected as UNESCO World Heritage Sites, including
subantarctic Macquarie Island, Fraser Island which is the world’s largest sand island, Lord
Howe Island in the Tasman Sea between Australia and New Zealand, and the collection of
900 islands that make up the Great Barrier Reef World Heritage Site, while Tasmania has 3
World Heritage Sites. Several islands close to the Australian mainland with notable biotas
attract significant visitor numbers, including Kangaroo Island, in South Australia, and
Rottnest Island, famed for its quokka (Setonix brachyurus) population, in Western Australia.
The Department of the Environment and Energy, a federal government department based in
Canberra and answerable to the Minister for the Environment and Energy, has national
responsibility for environmental protection and the conservation of biodiversity. In practice,
however, island conservation is managed by individual states and their respective
government bodies, for example the Tasmania Parks and Wildlife Service for the state of
Tasmania. There is little co-ordination between states.
iii) Fiji
Popularly referred to as a collection of 333 islands, of which perhaps less than a third are
inhabited, Fiji is the most populated and one of the largest of the South Pacific island states.
Many of the conservation bodies with regional chapters have their headquarters in Fiji and
almost all of them are headquartered on just one street in Fiji’s capital, Suva: Ma'afu Street.
Key bodies include WWF South Pacific, the Fiji Locally Managed Marine Area network
(FLMMA) and Wildlife Conservation Society Fiji (WCS-Fiji), as well as national organisations
like the National Trust of Fiji. The Department of Environment is the government agency
responsible for the conservation and monitoring of biodiversity and ecosystems.
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2. Models of Island Conservation from Australasia
The concept of an ‘island’ covers a wide variety of different geographical features. In the
Australasia region this is reflected by several different models of island conservation, each of
which present different opportunities for shared learning and collaboration with their British
counterparts.
It is important to note that the following are models and cannot be applied as blueprints.
Each model’s success in its applied location has been a question of individual geography.
Success will be determined by selecting the appropriate model for a given location, learning
from the experiences of that model and designing an approach which is adapted to suit local
conditions. This is particularly true where a model is reliant on the presence of certain
circumstances which may not be found elsewhere (for example, a nearby population centre).
Restored Offshore Islands - The Tiritiri Matangi Model
Tiritiri Matangi Island is a world famous example of a restored offshore island. Starting with
Dick Veitch’s release of red-crowned parakeets/kakariki (Cyanoramphus novaezelandiae) in
1974 and its subsequent revegetation (1984-1994) through the efforts of a dedicated body of
volunteers, the island was transformed from an agricultural landscape where 94% of the
native bush had been lost or degraded, to 60% forest cover with a biota which includes
some of New Zealand’s rarest wildlife.
The transformation of Tiritiri Matangi has inspired numerous island restoration projects
around the globe. The island has been a popular and effective introduction to island
conservation for countless visitors and is ranked by TripAdvisor as the top-rated attraction in
Giant Weta (Deinacrida heteracantha), the world’s largest insect and just one of the rare species visitors
come to Tiritiri Matangi to see
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Supporter Groups
Supporter groups can be seen time and again in
New Zealand conservation, with over 150 groups
focussed on kiwi conservation alone. Through
supporter groups, remarkable numbers of New
Zealanders volunteer time and expertise to
conservation. Supporter groups are often involved
in pest control, ecological monitoring, education
and public awareness, as well as sometimes being
involved in translocations. Supporter groups play
an active role in island conservation, from the
Supporters of Little Barrier Island to the Friends of
Tiritiri Matangi. As the latter have required more
specialist groups over time they have shifted to
training volunteers to a specific project (i.e. species
specific groups), with the aim to retain them in that
group and thus reduce the need for retraining.
Aerial view of Zealandia, with its remarkable proximity to the city of Wellington (Zealandia)
New Zealand’s populous Auckland
region. The loss of topsoil from Tiritiri
Matangi’s years under agricultural
production has hampered progress on
the introduction of further native
seabirds to the island.
Restored offshore islands have
application for both the British Isles
and BOTs. Candidate examples might
include Brownsea Island in Dorset.
The Tiritiri Matangi Model is notable
for its: restoration of a previously
degraded landscape, close proximity
to a large urban area, open reserve
access, high emphasis on education,
volunteer engagement.
Restored Habitat Islands – The Zealandia Model
A habitat island on the New Zealand mainland, Zealandia performs many of the roles of
Tiritiri Matangi, despite the fact that the reserve borders New Zealand’s capital city,
Wellington. The sanctuary of 225 ha, first established in 1992, is a restored valley enclosed
by a predator exclusion fence and has been the recipient of numerous endemic species
notable for their conservation significance through translocation programs, including little
spotted kiwi (Apteryx owenii), brown teal (Anas chlorotis) and tuatara (Sphenodon
punctatus). Paul Kavanagh, of the Kiwi Birdlife Park, credits Zealandia with a ‘halo-like
effect’ in which its impact has expanded outwards over time, leading to increased numbers
of kaka (Nestor meridionalis) and other native species around the city’s limits.
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The reserve has become a significant tourist attraction and education tool for visitors and
residents of Wellington alike. Zealandia sees itself as a global model for restoration and has
already inspired numerous restoration projects in New Zealand, such as Bushy Park (98 ha).
Unlike Tiritiri Matangi, which has just two paid members of staff within the The Friends of
Tiritiri Matangi (in addition to the permanent presence of DOC Rangers on the island) and
where restoration work has been conducted by volunteers, Zealandia employs a full staff
and the site includes a café and gift shop. The sanctuary has, however, relied on financial
support from Wellington City Council and struggled to become self-sustaining.
The composition of the British Isles’ native biota would present challenges to a Zealandia
model being implemented on the borders of London, however there is potential for restored
habitat islands in the UK. Existing examples of such an ambitious agenda are, to date,
limited, the most famous being the Alladale Wilderness Reserve in the Scottish Highlands.
The Zealanida Model is notable for its: close proximity to a large urban area, habitat island
characteristic, open reserve access, high emphasis on education, commercial operation.
Large Islands with Native Mammal Populations - The Tasmania Model
Tasmania differs quite significantly from the other sample locations in two regards. First, it
has a native, and endangered, endemic mammal population, while in many of the other
locations in this study all mammals are considered ‘pest species’. Second, like New
Zealand’s North Island (113,729 km2) and South Island (151,215 km2) islands, Tasmania, at
68,401 km2, is considerably larger than many of the other islands featured (by comparison
Ireland covers an area of 84,421 km2), making it directly relatable to the British Isles.
Terrestrial conservation strategy for large islands with native mammal populations often
draws more closely on continental conservation strategy than that on other island systems
do. Unable to designate the entire island, Tasmania utilises a network approach of protected
areas, including 3 World Heritage Areas covering 1.58 million hectares, 19 national parks
and over 800 reserves.
Eradication programs for invasive species must be specific in such circumstances, due to
the presence of both native (and sometimes endangered) mammal species and domestic
animals. Human-wildlife conflict is often a challenge to the conservation of native mammal
species because of the impact it can have on societal perceptions of the species, making
stakeholder engagement crucial; in Tasmania, Tasmanian devils (Sarcophilus harrisii)
sometimes take lambs and will harass ewes. Recognising the impact on livestock and
human property is essential to ensuring the success of stakeholder engagement, such that
all parties feel engaged and their concerns considered. Roadkill deaths constitute a threat to
many ground-dwelling native species on large inhabited islands, including to Tasmanian
devils on Tasmania.
The Tasmania Model is notable for its: landscape level approach, stakeholder engagement,
native mammal presence, large island scale.
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Multi-Island Conservation - The Seascape Model
Fiji’s seascape model represents a landscape level, multi-island conservation model. It
serves as an effective model for island conservation where the individual points (islands) are
small but numerous and make up only a fraction of the overall matrix (ocean) coverage. By
taking a landscape level approach, the seascape model allows for balancing both reserve
areas and areas permitting the sustainable harvesting of terrestrial or marine wild products,
within the same seascape. This model is therefore ideally suited to many of the Pacific
Island countries, being made up of vast numbers of small islands, where social conservation
must be balanced alongside the needs of local livelihoods. Conservation International, WWF
South Pacific and WCS Fiji, all operate seascape projects in Fiji. Key to the seascape model
is developing sustainable financing mechanisms to support conservation and building
capacity, in co-operation with local communities and to ensure wise governance.
The Seascape Model is notable for its: landscape level approach, multi-island scale, social
conservation, stakeholder engagement, building capacity, combined point/matrix approach.
Restricted Access Offshore Islands - The Codfish/ Whenua Hou Model
Offshore islands which have
restricted access for conservation
purposes, as opposed to due to
private ownership or military use, are
often designated on the basis of
being considered among a nation’s
most biologically significant. Such
islands may serve as a reserve
population for particularly rare
species, or contain the entire global
population of a Critically Endangered
species; for example, the global
range of the Kakapo (Strigops
habroptila) is made up of three
restricted access offshore islands,
including Codfish Island/ Whenua
Hou.
Restrictions to human access are justified on the grounds of reducing the risk of biological
invasion, accidental disturbance or poaching of highly endangered species, as well as moral
arguments about ‘leaving some space for nature’ (Wade, pers. com., 3rd May 2017). Such an
approach may also simplify management of high priority species, as this allows for
implementation without the need to also manage human visitors. On some offshore islands
access may be restricted due to specific ecological reasons, for example, visitors are not
allowed to land on the Snares Group/Tini Heke in New Zealand because of the abundance
of muttonbird/titi (Puffinus griseus) ground burrows. Most restricted access offshore islands
also have restricted access due to geographical factors, being either very remote or
inhospitable, which may have historically limited human impact. In contrast to offshore
Little Barrier Island – An Underexplored Island
Remote, access highly restricted, and noted for its
steep, difficult terrain, Little Barrier Island/Hauturu
remains largely un-surveyed, despite being New
Zealand’s oldest nature reserve (1895). The
restricted access offshore island model here proves
an obstacle to further survey work as scientists are
discouraged from staying overnight, meaning that in
practice many areas of the island remain
unreachable. Movement on the island, even by the
permanently stationed DOC ranger, is largely
restricted to use of the few tracks that cross the
island. A large amount of aquatic systems on the
island have not been surveyed and there has been
no work to survey the forest canopy at all.
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Island Conservation and Tourism
Biodiversity conservation on islands is of economic significance because it maintains an often
rare biota that attracts wildlife tourism. Tourism makes a valuable contribution to local
economies and in many cases, such as on New Zealand’s Stewart Island/Rakiura, makes up
a significant percentage of the island’s economy. In turn, the economic incentive of tourism
revenue encourages further conservation efforts.
Tourism also presents challenges for conservation and must be managed appropriately.
Approaches to minimising the impact of tourism include the introduction of raised walkways
and viewing platforms to protect fragile island vegetation, as has been installed for Australia’s
Macquarie Island, the presence of wildlife rangers attached to tour groups, as has been
implemented in New Zealand and for Macquarie Island, biosecurity training sessions for tour
operator staff, a tax on visitors which can be used to support conservation programs for the
islands visited, a direct visitor cap, or, in the case of a restricted access approach to high-
priority islands, limiting visitation to only certain islands.
Tourists are not permitted to land on the majority of the New Zealand subantarctics, with the
exception of Campbell Island/Motu Ihupuku and the islands of Auckland Island and Enderby
Island in the Auckland Islands group, where visitors are subject to strict biosecurity
procedures. Such an approach has proven unpopular among some tourism operators who
point to a lack of published data on the link between tourism visitation and biological invasion,
the success of raised platforms for visitors in preventing damage to vegetation on islands
where they have been installed, and examples of biological invasion being caused by the
mistakes of scientists, rather than tourists. Although both parties have broadly similar goals in
their desire to promote the conservation of New Zealand’s islands, the division threatens the
relationship between tourism operators and the regulatory authority, DOC, which is to the
detriment of their ability to provide mutually beneficial partnerships.
islands which are open reserves, such as New Zealand’s Ulva Island, restricted access
offshore reserves either have heavily permitted access (such as Macquarie Island,
Australia), or no access at all except for scientific researchers (Codfish Island/Whenua Hou).
New Zealand in particular has a high prevalence of restricted access offshore islands, a
policy which is not without its critics. One of the charges levelled against restricted access
islands was that the policy was elitist: scientists and prominent visitors could visit the island
because of their status, but the general public or tourists could not, despite a lack of
published evidence for even a single biological invasion caused by tourist visitation in the
presence of properly implemented biosecurity measures (Russ, pers. comm., 14th April
2017).
The Codfish/Whenua Hou Model is notable for its: high national priority, endangered
species, restricted access (heavily permitted - scientific research only), geographical
isolation, predator-free status.
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Megaherb field, Campbell Island (Department of Conservation)
Case Study: Subantarctic Islands
Subantarctic islands, and the Antarctic islands further south, tend to be managed worldwide
as restricted access offshore islands. New Zealand’s subantarctic islands, designated a
World Heritage Site on the basis of floristic diversity, are made up of 5 separate island
groups located between 47 and 52 degrees latitude south: the Snares /Tini Heke, Auckland
Islands/Motu Maha and Campbell Island/Motu Ihupuku to the south of South Island, and the
Bounty and Antipodes Islands to its south-east. Between the 5 groups, there are 19 floral
species endemic to just a single island group, with a further 28 species endemic to the New
Zealand subantarctics as a whole4. The islands provide breeding sites for 11% of the world’s
known seabird species5. Another World Heritage Site, Macquarie Island, is their Australian
counterpart, lying at 54 degrees latitude south. The UK’s subantarctic and Antarctic islands
are found on the Atlantic side of the Southern Ocean, including South Georgia and the
South Sandwich Islands, the Falkland Islands and the South Shetland Islands.
The benefits of the transboundary sharing of best practice and expertise is well understood
in the subantarctic region, for each subantarctic island tends to be more similar to the next
than it is to their mainland environment. For example, the UK subantarctics are more similar
to the New Zealand subantarctics than they are to the British Isles. The level of collaboration
between New Zealand’s DOC and the Tasmania Parks and Wildlife Service has been
particularly high: Tasmania Parks and Wildlife Service representatives can fill requirements
for tourist ships to the New Zealand subantarctics to have a DOC-approved ranger on board,
while DOC employees have in the past visited Tasmania to look at biosecurity measures and
Noel Charmichael, Macquarie Island Executive Officer at the Tasmania Parks and Wildlife
Service, praised the expertise of the New Zealand personnel who advised the Macquarie
Island pest eradication (2006-2014, operational phase 2011-2014).
Geographical isolation means a low public profile and it is unlikely that a high percentage of
the public are aware of the ecological significance of the subantarctics, or the significant role
that organisations such as the Royal Society for the Protection of Birds (RSPB) play in their
conservation on the BOTs. Public awareness regarding the subantarctics appears to be
better in both Australia and New Zealand, perhaps due to the range of publications covering
them and the media attention given to their large eradication programs. Rodent eradication
programs on the UK’s South Georgia (2011-2015) have made national news, but have not
yet been afforded the same prominence, despite the fact they were larger in magnitude that
any comparable eradication program to date6.
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3. Governance
One of the fundamental differences between the practice of island conservation in the UK,
compared to New Zealand, Australia, or Fiji, is who takes the lead on island conservation
projects, a difference which is largely determined by a variation in governance.
The UK has no equivalent body to New Zealand’s DOC, which operates on a national level
with regional offices. Although the Department for Environment, Food & Rural Affairs (Defra)
is the government department responsible for conservation decision-making, they are
supported by a range of different devolved agencies in Natural England, Scottish Natural
Heritage, Natural Resources Wales and the Northern Ireland Environment Agency. The
disadvantage of this arrangement is that performance can vary between regions, as is also
the case for Australia which works through devolved, state-level bodies. In the Australian
case, Tasmania and Western Australia perform better on island conservation than their
counterparts, with New South Wales also having taken some positive steps. This situation is
compounded by the fact there is little co-ordination between Australian states, with little
appetite for it. Keith Springer, one of the most experienced figures in island conservation
programs worldwide, recounted suggesting the value of establishing a national body for
Australia to provide coordinated advice, planning and equipment at a workshop in Canberra
and noted that: “not one state representative saw any merit in that idea”.
To an even great degree of devolution is the BOTs. The BOTs hold the greatest
concentration of rare and endemic species of anywhere under the UK’s jurisdiction, but
Westminster plays little active role in their conservation, the BOTs being highly devolved and
largely overseeing their own affairs. The exception is the British Indian Ocean Territory
(BIOT), which remains under international scrutiny. In its place, managers for the respective
BOT governments have responsibility for island conservation in their jurisdiction, but often
have limited personnel and resources available. This has meant that a range of charities,
notably the RSPB, through their Overseas Territories Unit, as well as smaller charities such
as the South Georgia Heritage Trust, have come to play important roles, an arrangement
which bears some comparison with Fiji, where civil society and nongovernmental
organisations play key roles in island conservation.
Department of Conservation (DOC)
Since its formation DOC has been at the forefront of conservation efforts in New Zealand
and is an example of an effective, centralised conservation department. The presence of an
entire government department dedicated to conservation provides a natural leading body on
conservation efforts in New Zealand. There is no comparable body in the UK.
The fundamental difference with the UK, therefore, is that while in New Zealand it is DOC, as
a government department, who lead island conservation throughout New Zealand’s
exclusive economic zone (EEZ), in the UK-context, throughout a significant portion of the
country’s EEZ (specifically that covered by the BOTs) it is charities who do so.
The scale and ambition of DOC’s program for island conservation can be seen in the
Predator-Free New Zealand 2050 target, but DOC has not been without its faults.
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“When it comes to the rehabilitation and the
management of islands for conservation DOC is the
TOPs. In my opinion they lead the world“
- David Bellamy OBE
Commercial tourism operators interviewed noted that while they were willing to provide
resources and assistance to conservation programs, DOC were cautious of private
enterprise’s involvement, despite the department’s newly mandated strategic partnerships
agenda. DOC has shown evidence of improving in areas where it was traditionally weak, for
instance an increasing number of DOC employees now spend time overseas to gain
experience working with different management systems, before bringing that knowledge
back to New Zealand.
Community Conservation
As well as supporter groups (see Supporter Groups), which are often embedded in the local
community, community conservation has several notable regional facets. Some of the most
important are:
a) The Locally Managed Marine Area Network
The Locally Managed Marine Area Network (LMMA) serves as the principal international
network for marine conservation and resource management for the Pacific region, with
national bodies for most countries in the region. The LMMA Network embeds the principles
of sharing best practice and network learning into its approach, by providing the opportunity
for discussion, communication and coordination between countries.
Community resource owners form the heart of the LMMA Network. In Fiji and its partner
Pacific Island Nations, the communities themselves are the resource owners, an increasingly
unusual phenomenon on a global scale. The LMMA Network prioritises empowering these
communities, while drawing on technical expertise of resource conservation NGOs,
academic institutions and government. In Fiji, LMMA’s national body, the Fiji Locally
Managed Marine Area (FLMMA) network, works with over 400 communities in order to
promote the preservation and sustainable use of marine resources.
Independent, but supported by FLMMA, is the Women in Fisheries Network – Fiji (WiFN-
Fiji), which is concerned with the gendered dimensions of fisheries. A significant focus of the
work of WiFN-Fiji is on subsistence fisheries, such as the mud crab fishery, which make
important contributions for the personal economy of many local women.
The BOT of the Pitcairn Islands, like French Polynesia, is not part of the LMMA network.
With the Pitcairn Island Council, the Pew Environmental Group and National Geographic
campaigning for the entire EEZ of the territory to be designated a marine protected area, this
report recommends for Pitcairn to become a member of LMMA, which would formalise the
provision of support from the network for the territory.
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b) Iwi and conservation-heritage links
In New Zealand one of the most promising developments for community conservation is the
increasing involvement of Iwi (Maori communities) in conservation. Social responsibility and
conservation do not always go hand-in-hand, but New Zealand has found a way to strike a
both pragmatic and effective course. For example, while local Iwi wanted the return of
Codfish Island/Whenua Hou, one of the most important nature reserves in the country, and
the New Zealand government wanted the island to remain a nature reserve, a solution was
found in which the island would remain a reserve and a partnership would be formed through
the Whenua Hou Committee, which would include both Iwi and DOC Southland
representatives. With these links predicted to increase they represent a promising trend
based around Kaitiaki, a Maori concept which refers to guardianship of the land, sea and
sky.
c) Public engagement with island conservation
New Zealand makes the case for public engagement in island conservation. Public support
can result in financial backing for specific programs (for example, DOC recognises that the
2016 Antipodes Island mouse eradication would not have been possible without donations
by the New Zealand public and private foundations), direct support for island conservation
objectives (for example, DOC’s War on Weeds has volunteers actively remove weed species
that threaten ecological change on North Island and South Island) and can translate into
political support.
The Great Britain Invasive Non-Native Species Strategy (2015), published by Defra7,
acknowledges that public awareness of the impact of invasive species for the UK and BOTs
remains poor both among the public and among government departments. By contrast, New
Zealand has had considerable success in building grass-roots conservation support through
sustained efforts by government, non-profits and the leadership of ground-breaking
individuals. New Zealand’s Predator-Free 2050 target has brought the issue further to the
public’s attention, attracting extensive media coverage. The New Zealand public appear both
informed and engaged on the issue, largely thanks to education campaigns and such high
profile coverage. There is no reason such an approach would be out of place in the UK.
This report would like to note the importance of engaging young British conservationists on
island conservation. Doing so is challenging because the BOTs in particular remain remote
concepts for most in the UK and they are rarely covered in secondary or tertiary education.
Young scientists, through dissertation studies and fieldwork, represent untapped potential to
help collect information on biodiversity on the BOTs, a lack of which has historically impeded
conservation efforts8.
The RSPB’s free outreach visits for schools, supported by Aldi, are an excellent way to
connect young people with nature, but their coverage is limited to certain cities across the
UK, only cover material up to primary school level (Key Stages 1 and 2) and are reliant on
the individual school making contact with the RSPB’s education team. Developing an Island
Conservation session would be a worthwhile addition to those currently offered. While
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secondary school (Key Stages 3-5) talks are more challenging than primary, New Zealand
has shown they can be a success. New Zealand successfully holds conservation talks and
workshops for school children all the way through compulsory education; again there is no
reason why the UK cannot do likewise.
The school lecture series Island Conservation For An Island Nation, developed as part of
this project, will directly introduce island conservation in the UK to school groups and test
whether the content material is suitable for both primary and secondary schools. There is
also a role for government; collaboration between Defra and the Department for Education,
to include the BOTs in the secondary curriculum, would introduce the UK’s overseas
territories and the conservation challenges they face to students across the country.
International Collaboration
The foremost advisory group on island eradication programs in the world, New Zealand’s
Island Eradication Advisory Group (IEAG) have become a pan-global advisory body,
providing advice to eradication programs on a wide range of BOTs, such as South Georgia,
Gough Island and Henderson Island, among others, while nominating technical advisors and
providing advice for a wide range of other eradications. Individual New Zealand specialists
have also served as operational or technical advisers for eradication programs worldwide,
for example Keith Springer serves as a Gough Island Restoration Operational Advisor for the
RSPB, while Pete McClelland has performed a similar role in Alaska and British Columbia,
and Nick Torr and Derek Brown have both been involved in programs on South Georgia,
Gough Island and Henderson Island. Springer believes New Zealand’s pre-eminence in
island eradication expertise can be traced back to a pressing need for eradication programs
to be implemented in New Zealand to relieve pressure on endemic bird species, coinciding
with developments in GPS technology, as well as the presence in New Zealand of both
offshore islands in Crown ownership and the ready availability of helicopters and pilots with
agricultural experience. Having developed the crucial combination of skills and expertise,
New Zealand has begun to export eradication expertise and products.
Across the Pacific region, Fiji plays a significant role in regional co-ordination as many of the
international; conservation non-governmental organisations with regional bodies, such as
WWF or Conservation International, have these based in Fiji. The Pacific Invasives Initiative,
based in Auckland, New Zealand, is also involved in providing co-ordination for the Pacific
region, but specifically regarding invasive species.
Island Conservation, a US-based non-profit, play an important role in island restoration
projects across the Pacific, Caribbean, North and South America. Island Conservation
currently does not have staff in Europe, Asia or Africa, where the presence of native
mammals presents a very different challenge for island restoration programs.
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Biosecurity signage on Ulva Island, New Zealand
Biosecurity signage, Ulva Island, New Zealand
4. Invasive Species
Invasive species, identified as the second greatest threat to global biodiversity9 10, present a
heightened threat to island systems. For example, novel predators can present an existential
threat to island species without traditional defensive mechanisms associated with their
genus, the fate of many of New Zealand’s endemic species, including the New Zealand quail
(Coturnix novaezelandiae), which went extinct in 1875, the bush wren (Xenicus longipes),
extinct in 1972, and the greater short-tailed bat (Mystacina robusta), of which there have
been no sightings since 1965 and is suspected extinct. The impact of invasive species is
considered of political and economic importance for the UK11 and strategy is governed by
The Great Britain Invasive Non-Native Species Strategy (2015). For the South Atlantic
BOTs, where climate change potentially presents novel biological invasion challenges for the
region12, it is the RSPB that published the South Atlantic Invasive Species Strategy and
Action Plan (2010), with signatories from each of the South Atlantic BOT governments.
Invasive species strategy on island systems tends to have two central tenants: biosecurity
measures to prevent further invasive species reaching island systems and eradication
programs to remove invasive species already there. By the start of the 21st Century, New
Zealand had begun to excel in both regards.
Biosecurity
New Zealand has one of the most advanced
biosecurity programs of any country. While biosecurity
remains a national priority, particular emphasis has
been placed on the World Heritage subantarctic island
groups and other offshore predator-free islands.
In the New Zealand subantarctics, DOC have
introduced hull checks for boats and have begun to
consider the biosecurity implications of fishing vessels,
although such moves have met with some industry
resistance (Trainor, pers. com., 28th April 2017). Tour
operators to the New Zealand subantarctics are faced
with some of the strictest biosecurity measures in
place anywhere in the polar and sub-polar regions. As
part of the permit issued to tour operators they are
required to cover the cost of DOC representatives
aboard every vessel and to conduct biowashes every
time passengers disembark.
For larger regions it may be appropriate to have
internal biosecurity measures, as applied in Australia,
which operates biosecurity on a state-by-state basis
through the Australian Interstate Quarantine program.
For example, when travelling to New South Wales and
the Australian Capital Territory bulbs are prohibited for
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transport if you are travelling from Victoria or Western Australia, but are permitted if you are
travelling from any other Australian state. Unlikely to be necessary for the UK itself, except in
exceptional circumstances, this approach mirrors that for the South Atlantic BOTs where one
BOT is responsible for different island groups (for example, biosecurity measures apply
between South Georgia and the South Sandwich Islands, which form a single BOT).
Invasive Species Response
New Zealand has led the global charge on invasive species on island systems. With now
world famous examples of uninhabited islands where invasive animal species have been
eradicated, such as Tiritiri Matangi Island, New Zealand has become a model for eradication
programs worldwide. Two opportunities now present themselves to DOC. The first is to
export expertise worldwide to assist in eradication programs in other countries. The second
is to shift focus towards the more challenging prospect of eradication programs on inhabited
islands, as addressed by the recently announced 2050 Predator-Free New Zealand target.
Despite the success of New Zealand’s pest eradication program, it was initially met with
significant opposition. Only now has growing acceptance of the program in New Zealand
become more widespread, although some international commentators remain critical13 and
certain dimensions, such as the extermination of feral cats, remain out of public sight. 1080
is the most widely used toxin in New Zealand mainland animal control programs and the
public controversy surrounding use of the toxin on such a wide scale will be known to
anyone familiar with conservation in New Zealand. While the question of bioaccumulation in
birds of prey remains pertinent, all practitioners interviewed agreed that 1080 remained the
most effective tool available in animal control programs. Brodifacoum is the most widely
used toxin in New Zeland for island pest eradications, primarily targeting rodents.
Public opinion on New Zealand’s pest eradication program and the use of 1080 has
improved because DOC has highlighted the tremendous number of endemic species that
have gone extinct in New Zealand due to the impact of invasive species. The clear
correlation between certain invasive species and specific extinctions has overwhelmingly
made the case that eradication programs, though expensive and sometimes unpalatable, at
times may be essential to preserving national and global biodiversity.
The same arguments have not been well articulated in the UK. Eradication programs are so
important for New Zealand because it is made up of remote oceanic islands, with high rates
of endemism among the native biota and an ecological composition which makes the
ecosystem highly vulnerable to biological invasion. Many of the arguments against
eradication programs are based on the case of continental islands, an important
biogeographical distinction. On the British Isles, as continental islands with a high
percentage of introduced species, many of those arguments are relevant, but for the BOTs,
which, like New Zealand, tend to be remote oceanic islands, eradication programs will be
important tools in preventing the extinction of endemics. In order to secure public support for
eradication programs those arguments need to be articulated with the same eloquence and
determination that they have in New Zealand.
The removal of certain invasive species is challenging because of their sport characteristic.
Anglers in New Zealand would object to the removal of trout (Salmo trutta and
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Oncorhynchus mykiss), as the hunting community opposes the removal of deer (7 species).
This presents challenges for conservation. In Tasmania the Inland Fisheries Service
considers trout a threat to the state’s native fish, which include 12 threatened species (rare,
vulnerable, or endangered). The Inland Fisheries Service has therefore been restricted to
issuing guidance to not move introduced species, including trout, between water bodies.
Eradication Programs on Uninhabited Islands
As New Zealand has become
the global leader on invasive
species eradication programs,
considerable expertise has
been developed. The sharing
of information and expertise
has become common and
New Zealand practitioners
were involved in the multi-
species eradication on
Macquarie Island in Australia,
declared successful in 2014,
which also benefited from
advice from DOC’s IEAG.
New Zealand practitioners
have been involved in working
on or advising eradication
programs around the world,
including those on the BOTs
of South Georgia (South
Georgia and the South
Sandwich Islands), Gough Island (Tristan da Cunha), Henderson Island (Pitcairn Islands),
the British Indian Ocean Territory, as well as invasive programs across the Caribbean BOTs.
Such advice and experience can prove invaluable, as eradication programs are challenging,
costly affairs.
Even following best practice there is a chance that eradication programs may fail. The UK’s
mixed record of success with eradication programs on uninhabited islands includes the
failure of the Henderson Island rat eradication program in 2011, which surprised many in the
industry. The program’s failure was expensive, as it would require a second attempt, and rat
numbers rapidly recovered14. Despite providing a temporary reprieve for the endangered
Henderson petrel (Pterodroma atrata) and other seabirds threatened by the invasive rat
population, this outcome was highly disappointing. One suggestion is that the program was
hampered by unseasonal rainfall before the program dates, which caused an increase in
natural food sources available before the baiting program and therefore some rats failed to
take the bait. Another suggestion is that there were flaws in the baiting program, either that
there were gaps in bait coverage or that bait was only available for a short time period.
Million Dollar Mouse: The Logistical Challenges of a
Subantarctic Eradication
Million Dollar Mouse, the 2016 mouse eradication
program for the Antipodes Islands, which was jointly
funded by DOC, WWF-New Zealand, Island Conservation,
the Morgan Foundation and contributions from the New
Zealand public, is an excellent case study of a
government-civil society partnership at the heart of an
island conservation initiative. The eradication program
was logistically complex as the Antipodes have limited
infrastructure, no harbour to shelter the 2 ships required (1
supply, 1 passenger) for the eradication program,
challenging weather conditions, with the eradication
program needing to be conducted during the subantarctic
winter, and a remote geographical location (760km south-
east of the New Zealand mainland). At a budget of
NZ$3.9m (£2.1m), there was little room for failure.
Monitoring in 2018 will be used to determine whether the
program was a success.
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The RSPB is committed to a second attempt and there is little doubt that they will learn the
lessons of the 2011 attempt in reviewing the baiting regime in relation to the geographical
conditions of the island. The suggestion that unseasonal rainfall may have affected the
eradication program suggests that monitoring programs are established in the weeks
preceding baiting and, in the event of stochastic events that may increase the availability of
food resources, managers give consideration to delaying the program.
Eradication Programs on Inhabited islands
Eradication programs on inhabited islands are significantly more challenging in societal
acceptance, operation and management, than eradication programs on uninhabited islands.
Although Australia’s Lord Howe Island is a World Heritage Site impacted by invasive rodent
populations, while an eradication program would both be feasible and financially possible
with the New South Wales and Australian governments having identified funds for a
program, no eradication has yet been attempted due to local opposition. Primary concerns
for residents seem to be a fear of aerial baiting and a dislike of outside interference in which
the eradication program is framed as a government program which will make residents’ lives
more difficult. The key now for Lord Howe Island will be winning hearts and minds, as it will
be for any inhabited island where eradication programs are proposed. Clear, regular and
transparent stakeholder engagement is thus critical to align biological gains with the
economic and social priorities of stakeholders on inhabited islands15. It may also ensure the
long-term success of an eradication program; a community which takes pride in a program is
more likely to enforce the biosecurity measures essential to ensuring its lasting success16.
Although a Predator-Free Rakiura target was in place before the 2050 Predator-Free New
Zealand target, it remains in planning. James Ware, a supervisor for DOC’s Rakiura team,
spoke of the challenges faced in achieving predator-free status on Stewart Island/Rakiura;
during stakeholder engagement DOC found that while the local population were supportive
of the aim, they were cautious about how to achieve it, with the main concern being whether
the target would make life on the island more difficult. Individual concerns included the type
of poison used, how the eradication program would be managed, which species would be
affected and concern from the hunting community over the impact on the deer population.
With just 350 residents, many of whom are employed in industries which would benefit from
the implementation of the program, the struggle to advance Predator-Free Rakiura is
indicative of the challenges that face eradication programs on inhabited islands.
Eradication or animal control programs on inhabited islands that use 1080 may raise
concerns for dog owners, as domestic dogs are highly susceptible to the use of 1080. In
Australia, when the state of Tasmania conducted a 1080 baiting program for red foxes
(Vulpes vulpes) in July 2002, to reduce the risk posed to domestic dogs, Tasmania Parks
and Wildlife and the Fox Free Taskforce produced a pamphlet, 1080 & Dogs don’t mix,
which was widely distributed to alert dog owners to the risk and provided advice on what to
do when in a fox-baiting area. Residents were notified when fox baiting was due to take
place in their locality and warning signs were placed on roads in fox-baited areas.
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A fox eradication without any foxes?
If the experience on the Australian mainland is a guide, the successful biological invasion
of the island of Tasmania by the red fox (Vulpes vulpes) could have serious ecological
repercussions. Foxes are notoriously difficult to detect in low numbers and early action to
address a release event, before an invasive population could become established, would
be more likely to succeed than after an established population became easily detectable.
The Tasmania Parks and Wildlife Service have long maintained that physical evidence
for the presence of foxes on Tasmania had been turning up since 1998, evidence that led
to the launch of a AU$50m eradication program, with financing provided by the Federal
government. The program was dogged by claims that foxes did not actually exist on
Tasmania and that evidence was either fabricated, by members of the public or by
wildlife service officials, or did not exist. ABC News later reported that as early as 2011,
Simon Fearn, a zoologist with the Fox Eradication Program had raised concern that
evidence of foxes being present on Tasmania was hoaxed17. On 4th June 2013 the
Tasmanian Minister for Environment, Parks and Heritage, Brian Wightman, announced
the program would come to an end and in 2014 the program was disbanded.
Whether or not there were ever any foxes established on Tasmania between 2001 and
2014 may never be known, but the program was a disaster in public engagement. The
Fox Eradication Program’s failure to reply to requests for information or comment from
the media did little to reassure a sceptical public, media and state MP’s . In the Journal of
Applied Ecology, Stephen Sarre, of the University of Canberra, and colleagues wrote that
‘we suggest that a massive upscaling of effort…is going to be required to maximize the
chances of a successful eradication’18, a statement which, in hindsight, reflects poorly on
the authors and led a Tasmanian MP to write to the journal to retract the article19. Claims
by the Invasive Species Council that the decision to shelve the program was based on ‘a
dismissal of science’ and was ‘contrary to scientific advice’20 were inaccurate and again
reflected poorly on the conservation community when a scientific review, led by fox
ecologist Clive Marks, cast serious doubt on the department’s claims and confirmed
major anomalies in scat collection data. Marks had been a vocal critic of the fox
eradication program and the issue remained dominated by polarised viewpoints.
While enthusiasm for a precautionary approach is understandable, the lessons for the
management of eradication programs in the UK are clear. Confirming the presence of an
invasive species, preferably by external experts, is essential before launching expensive
eradication programs using public money. Equally important in maintaining public support
is clear, effective and honest communication with the public, media and politicians.
Celebrating Success and Public Acceptance
A major challenge for the use of invasive species eradications as a conservation tool is
public distaste for them. This is particularly true with ‘cute’ species, for example hedgehogs
(Erinaceus europaeus); in spite of the impact of hedgehogs on seabird colonies on islands in
the Hebrides, there is little public appetite for hedgehog eradication. The importance of
winning public support for eradication programs is something New Zealand has long
appreciated and sustained efforts have been made to influence public opinion on possums
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Efforts have even been made to normalise the large number of possums killed every year on New Zealand roads
South Georgia: Governance, International Collaboration and Invasive Species
A positive example of articulating the benefits of an eradication program on the BOTs is
the rodent eradication program on South Georgia (2011-2015). The Government of South
Georgia and the South Sandwich Islands proposed the eradication21, but, as shown in
Governance, lacked the resources22 23 to perform a program that was on a magnitude
greater than any comparable eradication program24. It was, therefore, a small charity, the
South Georgia Heritage Trust, which advocated for an eradication program and raised the
funds (£7.5m in 2015) to do so through donations from private individuals and
foundations. The program was completed over a multi-year period, by adapting strategy
to geographical conditions (for example, glacial boundaries defined distinct rodent
populations which could be targeted individually) and drawing heavily on international
expertise, particularly from New Zealand. The rodent eradication on South Georgia is an
excellent example of how international collaboration and the sharing of best practice can
enable a small charity or NGO to complete ambitious island conservation projects.
(Trichosurus vulpecula) by ‘demonising the cute’. In Australia, where possums are native,
the species is protected, but in New Zealand, where they have inflicted substantial damage
on the native biota, they have been vilified. This approach was possible because the species
could be labelled as invasive anywhere in New Zealand. Such an approach would be
unsuitable for our example of the hedgehog. While hedgehogs have damaging impacts on
offshore islands, on the mainland British Isles they are threatened and have undergone rapid
decline. A process of their ‘demonisation’ could erode public support for the hedgehog’s
conservation on the British mainland and hasten their demise. In such cases, a program of
live trapping and removal to the mainland may be more appropriate than eradication.
Celebrating success is an alternative method for winning public support, in the effort to make
the end result of the eradication program (a haven for endemic or endangered species)
something which stakeholders feel proud of. One example of this approach was the
Macquarie Island multi-species eradication, which sent film crews to Macquarie Island with
the field teams, in order to document the project’s success. .
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5. Management of High Priority Species
High priority species for island conservation tend to be endemic species. These species are
often considered highly vulnerable under IUCN guidelines, because the population is often
known from a single population on a single island, putting them at tremendous risk, for
example from stochastic events or biological invasion. This has meant that two of the most
valuable direct interventions have been Captive Breeding and Translocation.
Captive Breeding
Captive breeding of high priority island species may achieve several immediate conservation
goals. With species restricted to a single island or population, one of the most important is to
serve as a reserve population. A reserve population serves as a potential insurance against
extinction due to the impact of a single stochastic event, as happened to the plant Xylosma
serrata, which is thought extinct after its only known habitat on the BOT of Montserrat was
destroyed by a volcanic eruption and no ex-situ material existed25, or biological invasion of
the species’ only known habitat, as was the case for the South Island snipe (Coenocorypha
iredalei) when the species’ final refuge, Big South Cape Island in New Zealand, was invaded
by black rats (Rattus rattus), an event which the species, reduced to two individuals, was
unable to recover from. A reserve population both immediately prevents extinction and
serves as a reserve gene pool for species reduced to only a few individuals in the wild.
Captive breeding programs can also be used with the intention of directly increasing the
recruitment rate in high priority species, by increasing the survival rate to maturity, providing
an immediate boost to wild populations. The Otanewainuku Kiwi Trust suggest that just 5%
of kiwi (genus Apterygidae) chicks survive their first 6 months, but captive breeding
programs for kiwi are thought to have as high as 65% survival rate over the same period if
fledged in captivity to a weight of 1kg (Paul Kavanagh, pers. com., 21st April 2017).
Perhaps the most famous example of the success of a captive breeding program in the
survival of an endangered species is that of the black robin (Petroica traversi) from New
Zealand’s Chatham Islands, which was brought back from a population low of just 5
individuals. Breed-for-release programs now exist for many New Zealand endemics,
including the takahē (Porphyrio hochstetteri) and kakapo (Strigops habroptila), while in
Australia a priority breed-for-release program is that for the Critically Endangered orange-
bellied parrot (Neophema chrysogaster) which is only known to breed in Tasmania and has
a global wild population which numbers less than 30 mature individuals26 and perhaps as
low as 1427. A captive breeding population of 300 orange-bellied parrots also serves as an
insurance population against extinction.
Captive breeding will be likewise essential to the survival of several British endemic species,
none more so than the bastard gumwood tree (Commidendrum rotundifolium). Endemic to
St Helena, the species was reduced to just 1 known individual in the wild and, since the
discovery of a second individual, has since had a number of saplings cultivated at three
locations, notably at Drummond’s Point28. The species remains Critically Endangered.
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Translocation
Translocation is regularly used as a management technique in island conservation in order
to establish new populations on different islands (or the mainland), to prevent genetic
bottlenecks in small island populations by actively managing the gene pool, as well as to
repopulate areas where the species was previously extirpated due to habitat loss or
biological invasion and which have since been restored.
Establishing new populations on different islands, like captive breeding programs, acts as an
insurance against stochastic events or ecological threats devastating the only known habitat
of an endangered island species. Johannes Fischer, a PhD student at Victoria University, in
New Zealand, studying a potentially distinct population of South Georgian diving petrel
(Pelecanoides ssp.), suggested that a translocation may be necessary in the future, citing
the impact of a storm in 2004 that resulted in the loss of an estimated 40% of nests that year
and 15% of the population. Iwi approval would be essential for a translocation and correct
site location would be critical: the species requires a predator-free dune system. Dundas
Island and Enderby Island on the Auckland Islands have large sea lion populations which
may pose a threat to the safety of burrows. Campbell Island may be ideal but is 500 km from
the current population on Codfish Island/Whenua Hou. Managers, however, could create a
habitat island by fencing a section of the dune system on the Otago Peninsula.
In New Zealand, Little Barrier Island/Hauturu and Tiritiri Matangi have been recipients of
extensive translocations and are now used as source populations. Concern has been raised
about the genetic viability of subsequent translocations, drawing on a subsection of an
already restricted gene pool, but DOC now has a nuanced strategy to genetic viability, with a
genetic database for high priority species. Translocation can also be used in conjunction with
restoration projects as a temporary measure for an area. For example, the remaining 8
kokako (Callaeas wilsoni) of Otanewainuku Forest in the Bay of Plenty were removed in
1985 to Little Barrier Island. A pest control program was implemented and in 2009 the
program had been declared successful enough for DOC to reintroduce Kokako.
Translocation is not always effective. The bushwren (Xenicus longipes) survived on
predator-free Big South Cape Island until the island was invaded by ship rats (Rattus rattus)
in 1964. In a strategy emulated in later, successful, translocations, DOC’s forerunner, the
New Zealand Wildlife Service, translocated the entire global population, which numbered just
six individuals, to Kaimohu Island, but the species never recovered and went extinct in 1972.
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Tasmania’s endemic mammal, the Tasmanian devil, is a priority species for conservation on the island state
High Priority Island Endemic Species: Case Studies of Best Practice
Tasmanian Devil – Save the Tasmanian Devil Program
Tasmania’s iconic species, the Tasmanian devil (Sarcophilus harrisii) is the world’s largest
carnivorous marsupial. Once present on the Australian mainland (likely extirpated 1000-1500
years ago), the Tasmanian devil is now restricted to Tasmania and offshore Maria Island,
where it was introduced in 2012. Devil facial tumour disease (DFTD) has swept through the
population since 1996 and is now considered the primary threat to the species, ahead of
road traffic collisions and human-wildlife conflict over livestock predation. Maria Island hosts
a ‘DFTD-free’ population of Tasmanian devils, as do remote areas of Tasmania’s south-west
and north-west.
Conservation efforts are led by the Department of Primary Industries, Parks, Water and
Environment’s Save the Tasmanian Devil Program. There is some hope of disease
resistance developing among wild populations, or the development of a vaccine, but
management efforts are currently focussed on managing the wild ‘DFTD-free’ populations on
Maria Island and the Forestier and Tasman Peninsulas, as well as restoring ecosystem
function and increasing local genetic diversity in selected DFTD-infected areas via
supplementary translocations (referred to as ‘Wild Devil Recovery’). Captive-bred
Tasmanian devils are translocated to Maria Island and the Peninsula to maintain genetic
diversity, while wild-born devils are translocated from those populations to supplement
diminished wild populations elsewhere in Tasmania. A translocation from Maria Island to
Mount William/Wukalina was successfully conducted at the time of fieldwork.
Several proposals have been put forward to reintroduce Tasmanian devils to mainland
Australia, however the Save the Tasmanian Devil Program currently remain focussed on
management of the species in Tasmania. Reintroductions to the mainland would need to
address issues such as threats to devils and suitability of habitat, the combined impacts of
devils and introduced predators on native fauna, and potential conflict with other land users.
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Takahē - Kakapo/Takahe Recovery Team, Department of Conservation
The world’s largest rail, the takahē (Porphyrio hochstetteri), was thought extinct until its
rediscovery by Geoffrey Orbell in 1948. Although the species had suffered from over-hunting
and loss of habitat, as well as predation and competition by different invasive species, Orbell
found a surviving population in the Murchison Mountains near Lake Te Anau. Conservation
management was slow to act due to a lack of available resources and disagreement over
strategy between non-interventionists, who initially sought to protect the species in-situ by
protecting the rediscovered population under Fiordland National Park, and interventionists,
who advocated the need for active management making use of translocation and captive
breeding. Conservation of the Murchison Mountains site was eventually coupled with
translocation of individuals to predator-free offshore island sanctuaries (Maud Island,
Motutapu Island, Mana Island, Kapiti Island and Tiritiri Matangi Island).
Now managed by DOC’s joint Kakapo/Takahē Recovery Team, the takahē benefits from the
increased resources available to this specialist team, a benefit of joint species teams, and
the population has risen to 306 individuals, although that remains short of the aim of 500.
One of the most persistent threats to rare British bird species has been the removal of eggs
by egg collectors. Andrew Digby, a British scientist with the Kakapo/Takahē Recovery Team,
noted that the threat of egg collectors has never been a significant issue for conservation in
New Zealand, suggesting that a concerted emphasis on advocacy was key to this.
The takahē was previously thought to have been extinct since 1898
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Kakapo (Department of Conservation)
Kakapo - Kakapo/Takahe Recovery Team, Department of Conservation
Also overseen by the Kakapo/Takahē Recovery Team, the Critically Endangered kakapo
(Strigops habroptila) is among New Zealand’s most iconic endemic species. Advised by the
Kakapo Recovery Group, with Iwi representatives among its members, the Department of
Conservation Kakapo/Takahē Recovery Team are responsible for conservation efforts for
the Kakapo. Kakapo populations have now been established on Codfish Island/Whenua
Hou, Anchor Island/Puke Nui and a test population of 10 individuals on Little Barrier
Island/Hauturu, although each population remains small. All three islands are predator-free,
although there is theoretically the possibility of mustelids swimming to Anchor Island, and all
three are publicly inaccessible: Codfish Island/Whenua Hou and Little Barrier Island/Hauturu
are restricted access islands, while Anchor Island/Puke Nui is geographically remote. With
the population divided between three small populations, careful management of the species’
gene pool remains a priority as there is significant concern regarding the species going
through a genetic bottleneck.
One of the best funded teams within DOC through its long-standing model of private
partnerships, made possible by the iconic species it works with, the Kakapo/Takahe
Recovery Team are able to conduct their activities without draining DOC’s finances, freeing
up resources elsewhere. Sirocco Tours, named after their star and the world’s most famous
kakapo, constitute the sole outreach involving living kakapo and can connect with 4,000 –
12,000 people a year.
The kakapo is an excellent case study for the UK for the management of a Critically
Endangered species, as well as how private-public partnerships can be marketed to
business and harnessed for conservation objectives.
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Black robin (Department of Conservation)
Black Robin – Black Robin Project
The most endangered bird species in the world by the end of the 1970’s, the black robin
(Petroica traversi) reached a population low of just 5 individuals on a single island, Little
Mangere Island, with only 1 breeding female. Brought back from the brink using a cross-
fostering approach to captive breeding and translocation to Mangere Island, the population
now stands at 250 individuals spread between the two Chatham Islands to reduce the risk
posed by stochastic events.
After an intensive effort to rescue the black robin from extinction in the 1980’s through to
1998, led by Don Merton, a former New Zealand Churchill Fellow, DOC monitoring of the
black robin had lapsed by the early 2000’s. The Black Robin Project was formed in 2007 and
Melanie Massaro led the first study of the black robin since monitoring and conservation
management had lapsed a decade earlier, but since the DOC restructure in 2013 has
struggled with bureaucracy imposed by the department on working with the species, leading
to the decision being taken not to conduct fieldwork in 2016. The lack of currently ongoing
research into such a high profile species should be a concern for the scientific community,
although there is hope that fieldwork will resume in subsequent years.
As well as being a world famous example of the use of a captive breeding program to save a
species from extinction, the black robin illustrates the importance for the UK of maintaining
monitoring programs for endangered endemics beyond an active intervention. The Black
Robin Project additionally runs a website (http://www.blackrobin.org.nz/) which provides
educational resources for primary and secondary schools, aimed at highlighting the case of
the black robin and importance of island conservation.
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What is the value of the Predator-Free New Zealand 2050 target?
It would be reasonable to question the value of New Zealand’s Predator-Free 2050 target
if most practitioners accept that the target is impossible to achieve within the time frame
set, without significant increases in investment which are unlikely to be forthcoming in
light of recent DOC budget cuts.
Most practitioners, however, also considered that the target was still important because it
attracted media attention and therefore successfully raised the public profile of the impact
of invasive species. Keith Springer, who is serving as an operational advisor to the
RSPB’s restoration program for Gough Island, also noted that the target gave a goal for
conservationists to measure progress against.
6. Innovative Technology
Innovative technologies offer the opportunity to more effectively and efficiently combat
biodiversity erosion on island systems. With the most ambitious island conservation targets
of any country, New Zealand offers insight into how innovative technology might be utilised.
Some innovative technologies are already in use, others still require extensive research
before they become a reality. Practitioners interviewed for this project across New Zealand
widely accepted that the 2050 Predator-Free New Zealand target was impossible to achieve
over such a large area with current methods and funding. Hope in achieving the 2050 target
has therefore largely been placed in innovative technologies. In this section, I review some
of the most promising techniques to have emerged and assess their potential uses and
limitations.
Gene Drive Technologies
Recent developments in gene drive technologies have led to interest in their use to control
invasive species. Webber et al. (2015)29 review the potential for such use and conclude that
developments in CRISPR-Cas9 gene drive technology means that the use of such
technologies to control invasive species is now possible, but not without risk. The major risk
is that a species targeted by gene drive technologies would be vulnerable to being driven to
extinction, but any application should also consider potentially significant ecosystem-wide
implications and unintended consequences.
To determine the risk to the target species, dispersal ability is key: the authors believe that
such technologies may be feasible for invasive species with poor dispersal abilities where
less of a threat is posed to the species in its native range, for example amphibians on
offshore islands, but poses too high a risk to use in the marine environment or where the
targeted species is readily dispersed, for example wind-dispersed grasses.
They pose the key question whether “we are willing to risk the global loss of a species as a
result of unintended dispersal of modified individuals back to their native range, to benefit
from the control efficiencies that CRISPRCas9 gene drive technology could offer?”30
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RNA Interference (RNAi)
While development is still ongoing, RNAi offers the potential to be a viable species-specific
toxicant that meets euthanasia criteria. While development of the technology may be rapid,
although the fact that RNAi technology is largely controlled by patents would prove an
obstacle to the development of RNAi pesticides, RNAi may be controversial if linked to
genetic engineering31. It would also require extensive field and clinical trials to address the
lack of data on its impact on the environment in which it is used, in order to satisfy the
requirement that its use is deemed of acceptable risk.
Chemical Sterilants/Contraceptives
The drive for so called ‘safe sterilisation’ is a potential alternative to lethal control of invasive
species. There are a range of approaches to sterilisation, but the approach is generally
considered humane and compliant with welfare considerations32, although there is a longer
lag time before eradication than lethal control. Chemical sterilants may have some of the
same concerns as the application of conventional poisons, namely impact on non-target
species.
Virus-vectored immunocontraception (VVIC) is one method of contraception which utilises
viruses as a vector to reduce reproductive potential. The advantages of VVIC specifically is
that some consider it may be environmentally benign33, while compared to conventional
control methods it could potentially be cheaper as it is to an extent self-disseminating. Much
like concerns over chemical sterilants are associated with the impact on non-target species,
there is likewise a concern with VVIC of unanticipated impact on non-target species through
the zoonotic transmission of infectious agents. Other concerns include the genetic
engineering of a vector, irreversibility, the difficulty of controlling vectors, the potential for the
development of host resistance and the risk of irreversible genetic alterations to the target
species through selection34.
For VVIC to be a reality will thus require considerable further research, and therefore
significant investment, particularly as the research program to develop a mouse VVIC is no
longer being financed by the Australian Invasive Animals Cooperative Research Centre35.
Drone technology
The rapid growth in public use of Unmanned Aerial Vehicles (UAV) has led to increased
interest in their application for island conservation objectives. The most likely use of drone
technology would be in invasive species eradication programs, where drones could be used
to deliver bait to remote locations, or for night detection surveys along pre-programmed
routes and where a civilian helicopter pilot’s reliance on using lights, combined with the noise
of the helicopter, may cause the target species to flee. Drone technology is expected to be
widely used in eradication programs within a decade36.
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Artificial reef unit (Reef Design Lab)
Limitations to the use of drone technology include legislative restrictions to their use (in the
UK the use of drones to distribute pesticide is not permitted, limiting their current usability to
deliver bait in eradication programs), operative limitations of most market drones in high
wind conditions, as would be faced on many of the South Atlantic BOTs in particular, and
public objections to their use, for example in National Parks.
Resetting traps
The first of several examples of innovative developments of old technologies, resetting traps
were pioneered by Goodnature, a New Zealand-based manufacturer, in partnership with
DOC. The best resetting traps are all based around the design of a humane kill trap for
invasive species that then resets itself, a model which prevents the need for labour intensive
and expensive daily trap checking.
Ross Kerr, a former DOC Ranger illustrated the problem of trapping in remote Fiordland
National Park: the national park is so large and so inaccessible that traps were traditionally
limited to being set along access paths. Removing the need for daily trap checking also
allows traps to be set away from easily accessible routes.
Artificial Reef Design
A potentially useful restoration technique for
the marine environment surrounding islands,
artificial reed design is another example of an
idea that has been around for a long time, but
which has seen fresh insight in recent years.
Australian manufacturer Reef Design Lab has
highlighted the importance of the use of fluid
dynamics to create artificial reef units that
resemble a natural reef structure.
With the establishment of the UK Marine
Protected Areas (MPAs) and a shift in policy
focus towards the island marine environment,
Alex Goad, of Reef Design Lab, noted that the
establishment of ecologically-effective artificial
reefs in target areas around the British Isles
would help the recovery of areas devastated by
beam-trawling, one of the impacts of which was
the levelling of a previously three dimensional
environment.
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Case Study: Application of Innovative Technology to Albatross Conservation
One of the world’s most majestic seabirds, the albatross family have the largest wingspan of
any bird alive and spend the majority of their lives at sea, returning to land to breed. New
Zealand’s subantarctic islands have globally significant albatross populations, as do the UK’s
South Atlantic BOTs37. Of the 22 albatross species worldwide all are considered of some
concern by the IUCN and 3 species are listed as Critically Endangered.
Albatross conservation requires innovation at sea and on land. One of the major threats to
albatross is entanglement on fishing line from commercial longline operations. Faster sinking
(weighted) lures protect seabirds, but are unpopular among fishermen as they are more
dangerous for the men. Several other innovative technologies have been proposed and put
in place within more responsibly managed fishing zones, including the Falkland Islands BOT.
These include ‘bird bashers’ to scare albatross away from trawlers, flags over trawler nets to
keep seabirds away, setting bait underwater38, setting longline bait at night, or even dyeing
bait blue.
Albatross are also threatened by invasive species on the islands where they breed. This
includes Gough Island on the BOT of Tristan da Cunha, where mice eat both eggs and the
chicks of the Critically Endangered Tristan albatross (Diomedea dabbenena) alive. A mouse
eradication program is scheduled for Gough Island in 2019.
A third threat to albatross is from ocean plastics, the ingestion of which has long been known
in albatross and has been shown to cause physiological stress and a reduction in food intake
in albatross chicks, thus reducing the chance of survival39. The impact of ocean plastics is
another example of the importance of the marine environment in conserving island
biodiversity.
Stewart Island/Rakiura’s Paterson Inlet, New Zealand, plays host to albatross from the Southern Ocean
34 | P a g e
7. Conclusion and Recommendations
Island conservation requires policymakers and practitioners to utilise different approaches to
continental conservation, but they should also take into account geographical island type
(offshore/habitat island; uninhabited/inhabited; oceanic/continental), which should have
considerable bearing when designing conservation strategy. Taking into account individual
geographies, selecting suitable comparative reference examples can help guide strategy
and may save time and resources, as well as increasing the chance of success of any
intervention or policy. New Zealand, Australia and Fiji offer alternative approaches to island
conservation. The key lessons that they offer for the UK are grouped into 6 categories:
- Increasing Public Engagement with Island Conservation
- Monitoring and Incorporating Innovative Techniques
- Updating and Improving Response to Invasive Species
- Protecting High Priority Species and Environments
- Formalising Channels for Sharing Best Practice and Skills
- Thinking Big: The Benefits of Ambition
1. Increasing Public Engagement with Island Conservation
The example of New Zealand highlights the benefits of building public awareness and
engagement with island conservation. Awareness of island conservation in the UK remains
poor, from knowledge of the BOTs40, to specific topics within island conservation, such as
the impact of invasive species, which The Great Britain Invasive Non-Native Species
Strategy acknowledges is poor among both the public and government departments41.
This report finds that increasing the public profile of island conservation, particularly among
young people, the UK’s future conservation practitioners, could have considerable benefits.
The RSPB’s free education outreach visits are good introductions to conservation, but this
report recognises the need to expand the program and proposes the development of an
island conservation session in addition to those offered. A curriculum introduction to the
BOTs would both increase public knowledge of the BOTs and of their conservation.
This report repeatedly finds that the RSPB, largely unnoticed by the British public, plays an
important part in island conservation on the BOTs, often in a role that would be expected
elsewhere of national (New Zealand), or state (Australia), government. Celebrating success
in widely accessible formats will increase public awareness of BOT conservation and may
contribute to public support or resources for the RSPB to continue that success.
The author makes the following recommendations:
The long-term goal of an introduction to the BOTs incorporated in the secondary
education curriculum (Geography/Biology).
Environmental education providers, including the RSPB education team, should aim
to offer an introduction to island conservation in the UK.
An increasing focus on and promotion of the RSPB’s work on the BOTs in published
and screen media would be beneficial.
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2. Monitoring and Incorporating Innovative Techniques
There have been a number of recent innovative developments with application to island
conservation, especially invasive species eradication programs. While these offer hope for
the future, many remain in development. Of particular interest are:
The deployment of humane, self-setting traps prioritised over conventional traps,
during trapping regimes.
The incorporation of developments in artificial reef design by island restoration
practitioners, in consideration of the significance of the marine environment for island
biodiversity. Particularly relevant in areas previously damaged by beam trawling.
Managers should monitor the academic literature for developments in innovative
technology, ensuring that any proposed meets the principle of acceptable risk.
3. Updating and Improving Response to Invasive Species
Incorporating a proactive approach into The Great Britain Invasive Non-Native Species
Strategy, the document which governs Defra’s response to biological invasions, could prove
to be effective and may lead to significant cost savings in the long-term.
Biosecurity regulation for the metropolitan UK is weak compared to respective programs in
Australia and New Zealand. Introducing more rigorous biosecurity measures are unlikely to
be effective however, due to the volume of travel through major UK airports, without
significant investment in recruiting and training additional biosecurity and customs officers.
Even then it is likely that the UK would struggle to implement rigorous measures effectively
because of the challenges for customs officers to perform biosecurity checks on vehicles
travelling between the continent and the British Isles in sufficient intensity to be effective.
More rigorous biosecurity regulation would, however, be effective and appropriate for the
BOTs. Invasive species pose a higher risk to the BOTs, as oceanic islands, and their
geographical isolation and lower visitor numbers would make the implementation of
biosecurity measures feasible. South Georgia and the South Shetland Islands have already
implemented an effective biosecurity strategy which mirrors programs seen in New Zealand
and Australia. With the threat posed by invasive species to the BOTs’ endemic species well
documented42, more rigorous regulation seems appropriate.
New Zealand officials were openly disappointed about the lack of progress the UK had made
in tackling invasive species, particularly on the British Isles, citing a perceived lack of
ambition and political will to address the challenge. Paul Kavanagh, of the Kiwi Birdlife Park,
who has worked in New Zealand and on the British Isles, noted there are, however, limits to
what can be transferred directly from New Zealand’s success. New Zealand’s native biota
lacks mammals (except two native bat species), which makes non-discriminatory trapping of
terrestrial mammals possible. On the British Isles such an approach is not feasible, for
example accidently trapping red squirrels (Sciurus vulgaris) instead of grey squirrels (Sciurus
carolinensis) would be detrimental.
36 | P a g e
In cases where an eradication program is not currently possible or desirable, the use of
trapping programs can reduce invasive populations to acceptable levels and should use
humane, self-resetting traps.
BOT Governments introduce more rigorous biosecurity measures, in line with that of
South Georgia and the South Shetland Islands.
Conservation organisations making targeted use of humane, self-resetting traps to
control invasive species populations to acceptable levels.
4. Protecting High Priority Species and Environments
Case studies of the conservation of high priority species in the study countries suggest a
range of measures that may be applied to support conservation efforts. Two of the most
important are the use of translocation and captive breeding to establish off-island
populations of Critically Endangered and Endangered endemic species. Although there have
been substantial efforts made to increase the banking of seeds, over 85% of known plant
species are not yet held in the world’s largest seedbank, RBG Kew’s Millennium Seed Bank,
while many endangered species (both animals and plants) are not secured in off-island
populations. For example, only one of the nine endemic vascular plants on the Pitcairn
Islands is secured in an off-island population and in RBG Kew’s Millennium Seed Bank.
The BOTs, which host 94% of known British endemic species43 and have biotas heavily
represented by the most vulnerable species to ocean plastic pollution (seabirds, marine
animals), are also among some of the regions most afflicted by ocean plastic pollution. The
South Pacific Gyre means that the UNESCO World Heritage Site of Henderson Island
suffers from the worst ocean plastic pollution of any island in the world44. A lack of human
habitation on many BOTs and their offshore islands, as well as relatively few visitors, means
that there is a lack of human responders to collect plastic along the coastline.
Establish off-island populations of all Critically Endangered and Endangered British
endemics through translocation and captive breeding populations, as a matter of
urgency.
Investigation by the RBG Kew Millennium Seed Bank Partnership into the possibility
of involving universities in collection efforts, in order to collect seeds for all seed-
bearing British endemic plants.
Increased leadership by the UK and BOTs governments to address plastic pollution
on BOTs. This would include collecting plastic pollution (for example, by encouraging
partnership between communities and cruise operators to run clean-ups) and
spearheading efforts to tackle plastic pollution at its source (through international
commitments to reduce plastic pollution originating from the UK’s jurisdiction, while
pushing for similar commitments from partner states).
5. Formalising Channels for Sharing Best Practice and Skills
Progress is being made in the sharing of best practice among island conservation
practitioners. Particular success has been made in eradication programs and there is
evidence of this being incorporated into strategy, with the UK Rodent Eradication Best
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Practice Toolkit based on the New Zealand Department of Conservation’s Best Practice for
Rat Eradication – Bait Station45 and the Pacific Invasives Initiative Resource Kits, with advice
provided by DOC’s Island Eradication Advisory Group.
Geographically, there has been particular success in the sharing of best practice in the
South Atlantic region. The South Atlantic Invasive Species Strategy and Action Plan praises
South Georgia’s success, supported by thorough quarantine procedures and new island
biosecurity facilities, noting that “sharing experiences and skills, the South Atlantic (British
Overseas Territories) have the chance to reduce the negative impacts of invasive species” 46
Formalising communication channels between UK practitioners and their overseas
counterparts is recommended to allow for the continuous and timely sharing of best
practice and skills, as necessary.
The Pitcairn Islands joining the LMMA network would allow for formalised support
from the network for the BOT.
Experiences from eradication campaigns should be shared in online databases (e.g.,
Island Conservation’s Database of Island Invasive Species Eradications)
6. Thinking Big: The Benefits of Ambition
What sets New Zealand and DOC apart is level of ambition, in contrast to the UK’s perhaps
unambitious approach to island conservation. Predator-Free New Zealand 2050 represents
the single most ambitious island conservation target of its kind that the author is aware of.
A more ambitious approach may require a more active role for the UK government in BOT
conservation. For example, Gough Island is a World Heritage Site, under a convention
signed by the UK government, where Critically Endangered British species are at risk. With
that signature comes management responsibilities, but it is the RSPB which has led
intervention efforts and fundraising for a mouse eradication program (of which the UK
government has contributed about a fifth). As highly devolved entities, a more active role
must be one of partnership with BOT government, as well as civil society, in which the UK
government acts as a source of expertise, advice and resources.
Adopting an ambitious government agenda for island conservation, set by Defra in
consultation with the FCO and BOT Governments. At a minimum, the UK should aim
to fulfil its target of zero species loss across its entire jurisdiction, including the BOTs,
not just the metropolitan UK.
UK government providing increased support to Territory Governments in logistics,
expertise and funding for ambitious projects where appropriate.
Moving Forwards
The next steps for this project will be to head west to the South Atlantic, where I will be
looking at island conservation on the British Overseas Territories in the Atlantic. Fieldwork
will commence on 22nd October 2017 on the Falkland Islands. A policy paper for Defra on
island conservation in the UK will be developed on the basis of the report’s findings.
38 | P a g e
Acknowledgements
My particular thanks to Jonathan Hall at the RSPB Overseas Territories Unit and Adam
Walleyn at Adventure Canada, whose contributions were invaluable, to the Winston Churchill
Memorial Trust, who provided such generous support which enabled this project to happen,
and to Nigel Winser at Earthwatch and Shane Winser at the Royal Geographical Society
(with IBG), for their help in preparation.
In addition I would like to thank all of those who met with me to share their expertise and
experiences. They are:
Pete McClelland Threatened species recovery group leader, DOC
Keith Springer Gough Island Restoration Operational Advisor, RSPB
Brent Beavan The Office of the Rt. Hon. Maggie Barry MP
Richard Griffiths Project Director, Island Conservation
Deidre Vercoe Conservation Services Manager, Kakapo/Takahē Recovery Team
Andrew Digby
Science Advisor, Kakapo/Takahē Recovery Team
James Ware Supervisor, DOC Rakiura
Melanie Massaro
Senior Lecturer, Charles Sturt University
Chris Bowen DOC Southland Operations Manager
Aaron Russ Expedition Leader, Heritage Expeditions
Sharon Trainor Biosecurity, DOC Subantarctics
Dave Bowen General Manager, Heritage Expeditions
Lyn Wade Chairperson, Supporters Trust of Little Barrier Island
Kay Milton Biodiversity Chair, Supporters of Tiritiri Matangi
Paul Kavanagh Park Manager, Kiwi Birdlife Park
Ross Kerr Guide, Trips & Tramps
Mel Galbraith Senior Lecturer in Ecology, Unitec
John Stewart Chairperson, Motuora Restoration Society
Johannes Fischer PhD student, Victoria University
Paula Warren Senior Policy Advisor, DOC
Watisoni Lalavanua
Fisheries Officer, Wildlife Conservation Society (WCS) Fiji
Fipe Tuitubou
Programme Support Officer, IUCN Oceania Regional Office
Bridget Kennedy Pacific Regional Development Manager, Conservation International
Livai Tubuitamama
Forest Team, Conservation International
Francis Areki Conservation Director, WWF South Pacific
Jone Tuiipelehaki
Communications Officer, UNDP
Kone Beitaki Conservation Officer, National Trust of Fiji
Alan House Principal Ecologist, Ecosure
Ashley Rushton Regional Manager - Southern Region, Tasmania Parks & Wildlife
Noel Carmichael
Macquarie Island Executive Officer, Tasmania Parks & Wildlife
Stewart Huxtable Wildlife Biologist, Save the Tasmanian Devil Program
Alex Goad Co-founder, Reef Design Lab
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Glossary
BOT – British Overseas Territory (also Overseas Territory)
Critically Endangered (CR) – A species is Critically Endangered when the best available
evidence indicates the species is facing an extremely high risk of extinction in the wild.
Defra – Department for Environment, Food and Rural Affairs, UK
Devil facial tumour disease (DFTD) – A non-viral transmissible parasitic cancer that affects
Tasmanian Devils. First observed in 1996.
DOC – Department of Conservation, New Zealand
Endemic – Native only in one country or area, or restricted to a specific region
Endangered (EN) – A species is Endangered when the best available evidence indicates the
species is facing a very high risk of extinction in the wild.
FCO – Foreign and Commonwealth Office, UK
FLMMA – Fiji Locally Managed Marine Area Network
IEAG – Island Eradication Advisory Group, Department of Conservation, New Zealand
Invasive – A non-native species which causes considerable damage to the environment,
economy or human health.
Iwi – A specific Maori community
IUCN – International Union for Conservation of Nature
LMMA – Locally Managed Marine Area Network
NGO – Non-governmental organisation
Non-native (alien species) – A species introduced to an area outside of its natural (past or
present) distribution.
OT – Overseas Territory (also BOT)
RSPB – Royal Society for the Protection of Birds
UNDP – United Nations Development Programme
WCS Fiji – Wildlife Conservation Society Fiji
WiFN-Fiji - Women in Fisheries Network – Fiji
40 | P a g e
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Graphs and Figures
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About the Author
Joshua Powell is a National Geographic Young Explorer and Conservation Biologist. He
was awarded a 2017 Churchill Fellowship in the Young People (18-25) category for the
project Island Conservation for an Island Nation. Josh holds a master’s degree from the
University of Pennsylvania, as a Thouron Award Scholar.
The author can be contacted through the Winston Churchill Memorial Trust portal at:
http://www.wcmt.org.uk/users/joshuapowell2017.
The Winston Churchill Memorial Trust
The Winston Churchill Memorial Trust fund Churchill
Fellowships for British citizens to travel overseas to
study exemplary practice in their field, in order to
bring back new ideas to the communities of practice
in the UK. Separate trusts exist in Australia and New
Zealand for their respective citizens. For further
information on the UK’s Winston Churchill Memorial
Trust visit: http://www.wcmt.org.uk/
Photographs: All photographs are by the author, except where otherwise noted.
45 | P a g e
Project funded by For further information, please contact:
Winston Churchill Memorial Trust, 29 Great Smith Street, London, SW1P3BL
Powell, J. (2017). Island Conservation for an Island Nation.
Winston Churchill Memorial Trust: London, UK.